Helix feeder KWF The nak-vibration feeders operate with compensation of vibration forces, that means the vibration forces are balanced inside the appliance. The compensation of vibration forces results from the principle of counter vibration.. e measurements: mm a b c d e f g h k m n KWF 300 260 260 107,5 154,6 120 230 6x 5 160 3xM8 M12 120 KWF 400 305 340 112,5 229,5 90 280 6x 5 220 4xM8 M12 120 KWF 500 380 460 133,5 267,0 90 340 6x 5 295 4xM8 M16 120 e KWF 300 / 400 / 500 Direction of rotation optional right or left power supply (V/Hz) 230/50 oder 115/60 standard color of drive RAL 3002 (Sonderlackierung auf Anfrage) protection IP 31 control optional RG 1, RG 2, RG-3 (nicht im Lieferumfang) Properties and advantages of the compensation of vibratory forces: - vibration forces are balanced in the basic appliance - reduction of transmission of vibratory forces - defined and fixed interfaces toward assembly facility through compensation of torque in the linear feeder - flexible adjustment to specific feeding problems by variation of feeding-specific parameters like spring angle and rigidity of spring - omission of heavy countermasses results in lower weight of basic appliances and saving of energy - consequent modular-design principle in segmental construction 115 V 230V helix feeder drive KWF 300 1300,- 1110,- helix feeder drive KWF 400 1500,- 1290,- helix feeder drive KWF 500 2200,- 1960,- special lacquer finish 1 piece per piece 140,- special lacquer finish from 5 pcs per piece 55,- Reinraumklasse 10000 on request 2
n c e c nak Helix feeder KWF a a b b e d d k h KWF 200 KWF 250 e measurements: mm a b c d e g h k m n KWF 200 180 164 120 120 3x120 3x 4 100 3xM6 M10 3x120 KWF 250 210 210 126 121 3x120 3x 4 190 4xM6 M12 3x120 ee KWF 200 / 250 Direction of rotation optional right or left power supply (V/Hz) 230/50 oder 115/60 standard color of drive RAL 3002 (special varnish by request) protection IP 31 control optional RG 1, RG 2, RG-3 (not in scope of supply) 115 V 230V helix feeder drive KWF 200 1190,- 990,- helix feeder drive KWF 250 1250,- 1050,- special lacquer finish 1 piece per piece 140,- special lacquer finish from 5 pcs per piece 55,- Reinraumklasse 10000 on request 3
Helix feeder Complete substructure for KWF b 9 ) (4x h2 12 b 12 form measurements: mm size a b c h2 h3 KWF 300 260 220 294,6 20-65 ab 65 KWF 400 340 280 369,6 20-65 ab 65 KWF 500 450 380 407 20-65 ab 65 a 60 h3 11 KWF 400/500 has double pillars with distance 60 mm and double pillar support. 112 150 h2 h3 Complete substructure for KWF 300 170,- 305,- Complete substructure for KWF 400 210,- 480,- Complete substructure for KWF 500 260,- 530,- 4
e nak Helix feeder AWF Ø c f Ø d g e AWF 150 AWF 200 AWF 250 AWF 300 AWF 400 c 105 155 210 260 310 d 70 100 152 200 200 meassurements (mm) e 75 60 70 75 80 f M6 M6 M8 M8 M8 g M10 M10 M10 M10 M10 sense of rotation optional right or left power supply (V/Hz) 230/50 oder 115/60 standard color of drive RAL 3002 (special varnish by request) protection IP 31 control device optional RG1, RG2, RG3 (not in scope of supply) Our helix feeders are two-masses vibration systems and operate according to the micro-throw-principle. 115 V 230V helix feeder drive AWF 150 510,- 435,- helix feeder drive AWF 200 590,- 510,- helix feeder drive AWF 250 720,- 665,- helix feeder drive AWF 300 840,- 785,- helix feeder drive AWF 400 990,- 930,- helix feeder drive AWF 400V reinforced construction 1170,- 1090,- special varnish 1 piece per piece 140,- special varnish from 5 pcs per piece 55,- 5
Feeding bowls PT without helix Construction form 1 D1 S H D3 D2 Construction form 2 D1 All feeding bowls can be obtained in polyamid or aluminum. Polyamid is subject to less wear and causes significantly less noise than aluminum. Feeding bowls of polyamid are especially suitable for tempered and sharpedged parts. H S D3 D2 form 1 size D1 D2 D3 H W S PT 100-1 100 70 12H7 35 40 9 PT 150-1 150 95 12H7 55 40 12 PT 200-1 200 145 12H7 55 40 14 PT 250-1 250 150 12H7 80 40 15 PT 300-1 300 180 12H7 95 40 16 PT 400-1 400 240 12H7 150 35 25 PT 500-1 500 320 20H7 210 35 40 form 2 size D1 D2 D3 H W S PT 100-2 100 80 12H7 35 25 9 PT 150-2 150 112 12H7 55 25 12 PT 200-2 200 170 12H7 55 25 16 PT 250-2 250 208 12H7 80 25 24 PT 300-2 300 250 12H7 95 25 29 PT 400-2 400 300 12H7 150 25 34 PT 500-2 500 380 20H7 210 25 55 filling volume in dm³ ca. size form 1 form 2 PT 100 0,05 0,06 PT 150 0,17 0,21 PT 200 0,33 0,41 PT 250 0,70 0,82 PT 300 1,24 1,40 PT 400 3,55 4,00 PT 500 5,00 7,00 Feeding bowls PT 100-1 (Polyamid) 65,- Feeding bowls PT 150-1 (Polyamid) 107,- Feeding bowls PT 200-1 (Polyamid) 215,- Feeding bowls PT 250-1 (Polyamid) 330,- Feeding bowls PT 300-1 (Polyamid) 395,- Feeding bowls PT 400-1 (Polyamid) 488,- Feeding bowls PT 100-2 (Polyamid) 65,- Feeding bowls PT 150-2 (Polyamid) 107,- Feeding bowls PT 200-2 (Polyamid) 215,- Feeding bowls PT 250-2 (Polyamid) 330,- Feeding bowls PT 300-2 (Polyamid) 395,- Feeding bowls PT 400-2 (Polyamid) 488,- Feeding bowls PT 500-1 (Polyamid) 710,- Feeding bowls PT 500-2 (Polyamid) 710,- Feeding bowls in Aluminium on request Feeding bowls in Edelstahl on request Execution Plastic with FDA approval the same price w. Polyamid 6
Feeding bowls PT with standard helix Construction form 1 with slot helix 45 A 12 S B H All feeding bowls can be obtained in polyamid or aluminum. Polyamid is subject to less wear and causes significantly less noise than aluminum. Feeding bowls of polyamid are especially suitable for tempered and sharpedged parts. Construction form 1 with prismatic helix Bauform 1 Baugröße S B H A PT 200-1 12 8 6 6 PT 250-1 20 12 12 12 PT 300-1 25 12 12 12 PT 400-1 30 18 18 15 Construction form 2 with slot helix 45 A 12 S B H form 1 size S T B A PT 200-1 15 6 6 10 PT 250-1 20 8 8 12 PT 300-1 25 10 10 18 PT 400-1 30 11 11 20 Construction form 2 with prismatic helix form 2 size S T B A PT 200-2 15 4 4 8 PT 250-2 20 5 5 10 PT 300-2 25 6 6 10 PT 400-2 30 8 8 15 PT 500-2 45 10 10 20 form 2 size S B H A PT 200-2 12 8 8 10 PT 250-2 20 12 12 10 PT 300-2 25 15 15 14 PT 400-2 30 18 18 15 PT 500-2 45 28 28 25 Feeding bowls PT 200-1 m. Nutwendel (Polyamid) 775,- Feeding bowls PT 250-1 m. Nutwendel (Polyamid) 775,- Feeding bowls PT 300-1 m. Nutwendel (Polyamid) 935,- Feeding bowls PT 400-1 m. Nutwendel (Polyamid) 1225,- Feeding bowls PT 200-2 m. Nutwendel (Polyamid) 775,- Feeding bowls PT 250-2 m. Nutwendel (Polyamid) 775,- Feeding bowls PT 300-2 m. Nutwendel (Polyamid) 935,- Feeding bowls PT 400-2 m. Nutwendel (Polyamid) 1225,- Feeding bowls PT 500-2 m. Nutwendel (Polyamid) 1655,- Feeding bowls PT 200-1 m. Prismenwendel (Polyamid) 865,- Feeding bowls PT 250-1 m. Prismenwendel (Polyamid) 865,- Feeding bowls PT 300-1 m. Prismenwendel (Polyamid) 1065,- Feeding bowls PT 400-1 m. Prismenwendel (Polyamid) 1425,- Feeding bowls PT 200-2 m. Prismenwendel (Polyamid) 865,- Feeding bowls PT 250-2 m. Prismenwendel (Polyamid) 865,- Feeding bowls PT 300-2 m. Prismenwendel (Polyamid) 1065,- Feeding bowls PT 400-2 m. Prismenwendel (Polyamid) 1425,- Feeding bowls PT 500-2 m. Prismenwendel (Polyamid) 1890,- Feeding bowls in Aluminium on request 7
Feeding bowls PT with standard helix Construction form 2 with flat helix All feeding bowls can be obtained in polyamid or aluminum. Polyamid is subject to less wear and causes significantly less noise than aluminum. Feeding bowls of polyamid are especially suitable for tempered and sharpedged parts. Construction form 1 with radial helix 15 form 1 size S B A PT 200-1 15 7 12 PT 250-1 20 9 14 PT 300-1 25 11 15 PT 400-1 30 11 15 Construction form 2 with flat helix S A t R form 1 size S R t A PT 200-1 15 3 4 8 PT 250-1 20 5 8 9 PT 300-1 25 6 9,5 11 PT 400-1 30 8 13,5 15 Construction form 1 with radial helix 15 t S A R form 2 size S R t A PT 200-2 15 3 4 8 PT 250-2 20 5 9 9 PT 300-2 25 6 10,5 11 PT 400-2 30 8 14,5 15 PT 500-2 45 12,5 22 25 form 2 size S B A PT 200-2 15 2 6 PT 250-2 20 4 8 PT 300-2 25 5,5 12 PT 400-2 30 6,5 12 PT 500-2 45 10 15 Feeding bowls PT 200-1 w. flat helix (Polyamid) 650,- Feeding bowls PT 250-1 w. flat helix (Polyamid) 650,- Feeding bowls PT 300-1 w. flat helix (Polyamid) 770,- Feeding bowls PT 400-1 w. flat helix (Polyamid) 980,- Feeding bowls PT 200-2 w. flat helix (Polyamid) 650,- Feeding bowls PT 250-2 w. flat helix (Polyamid) 650,- Feeding bowls PT 300-2 w. flat helix (Polyamid) 770,- Feeding bowls PT 400-2 w. flat helix (Polyamid) 1010,- Feeding bowls PT 500-2 w. flat helix (Polyamid) 1345,- Feeding bowls PT 200-1 w. radial helix (Polyamid) 650,- Feeding bowls PT 250-1 w. radial helix (Polyamid) 650,- Feeding bowls PT 300-1 w. radial helix (Polyamid) 770,- Feeding bowls PT 400-1 w. radial helix (Polyamid) 1010,- Feeding bowls PT 200-2 w. radial helix (Polyamid) 650,- Feeding bowls PT 250-2 w. radial helix (Polyamid) 650,- Feeding bowls PT 300-2 w. radial helix (Polyamid) 770,- Feeding bowls PT 400-2 w. radial helix (Polyamid) 1010,- Feeding bowls PT 500-2 w. radial helix (Polyamid) 1345,- Feeding bowls in Aluminium on request 8
g e nak Reinraumklasse 10000 KWF / KLF e a b c d e f g KWF 300 274 115,5 268 155 3x 10 2x 9 10 KWF 400 354 127,5 348 229,5 3x 10 2x 9 30 KWF 500 474 148,5 468 267 3x 10 2x 9 30 b a c h f b g g f d a c e d e a b c d e f g h KLF 1 180 91 75 165 92,7 38 4,2 6,2 KLF 2 / 2,5 246 110 88 231 141 60 5,2 6,2 helix feeder drive KWF 300 RK10000 1390,- helix feeder drive KWF 400 RK10000 1890,- helix feeder drive KWF 500 RK10000 2780,- linear feeder KLF1 RK10000 610,- linear feeder KLF2 RK10000 700,- linear feeder KLF2,5 RK10000 800,- 9
Linear feeder KLF 1, KLF 2, KLF 2,5 The linear feeders KLF are based upon a novel construction and operation principle, that eliminates not only the vibration forces but also the vibrational-torsional and tipping momentums in the appliance itself. By that means simplified user conditions and extended operational limits are created. - fixed countermasses and fixed rail weights - no trial run when assembling feeder rails - no mass balancing necessary - reduced vibratory transmission to the base - cessation of tipping and torsional momentums e a b c d e f g h k l m n o rail weight ± 50g KLF 1 330-500 80-90 94,2 140 126 109 12 104,6 50 6,2 35 92,7 38 1 kg KLF 2 500-1000 50-60 114 200 182 160,1 15 156 72 6,2 50 141 60 2 kg KLF 2,5 500-1000 50-60 114 200 182 160,1 15 156 72 6,2 50 141 60 2,5 kg 115 V 230V linear feeder KLF 1 410,- 380,- linear feeder KLF 2 470,- 410,- linear feeder KLF 2,5 570,- 515,- Reinraumklasse 10000 on request on request 10
Linear feeder LF 70 Support spring UF 70 e voltage V frequency Hz Current consumption A LF 70 230 50 0,08 LF 70 115 60 0,045 linear feeder LF 70 Ø4.2 (2x) 115 V 230V linear feeder LF 70 290,- 260,- Support spring UF 70 60,- 60,- 11
71 nak Bunker / Substructure KLF1 KLF1 221,20 87,80 KLF2,5 371,20 87,80 7 30 20 0 15 M4 (mittig) h 15 50 118 140(200) 50 3 5 (50 ) 0 9 109 71 KS 25.0050-0500 Aufbauplatte KLF KF 25.200 Complete substructure for KLF 1 / KLF 2 / KLF 2,5 - optional pillar height from 50-500 mm bunker (1 liter) KLF1 580,- bunker (1 liter) KLF2 620,- bunker (1 liter) KLF2,5 720,- Substructure kpl. for KLF 1 / KLF 2 / KLF 2,5 260,- 12
Control devices RG RG-1 RG-2 e RG 1 RG 2 RG-3 linear feeder helix feeder light barrier (24 V) initiator (24 V) smoothstart working voltage 230V/50Hz working voltage 115V/60Hz frequency 25 / 50 Hz 25 / 50 Hz 20-70 Hz optical coupler input invertible RG-1/2 male socket M8 x 1 for control input M16x1,5 connection cable vibration feeder M16x1,5 for power supply 13 5 60 173 fastening bores RG-3 5 With nak-controlers you can exactly set - combined with a light barrier or an initiator - the feeding performance and the buffer capacities of helix and linear feeders. The elctronic controlers of the model line RG are employed for the infinitely variable regulation of inductive charges like helix feeders, linear feeders and bunkers and operate according to the phase angle principle. RG-3 78 membrane keyboard female socket for vibration feeder SPS-port M12x1, 4-poles M12x1,5 dummy plug power supply M12x1,5 dummy plug 13 2 1 3 4 80 The adjustment of the feeding performance is obtained by the adjusting of the magnetic potential through the set-value-potentiometer, that is built into the caselid. The control curve of the set-value-voltage can be limited with 2 trim-pots, so that always the complete rotation angle of the set-value-potentiometer can be exploited. F 50.0 WERT MENÜ Prog. EIN ANTRIEB AUS 200 fastening bores 6 Control inputs permit the switching-on or switchingoff of the appliance by other systems, that offer a switched voltage of +24 DC (e.g. a SPS). This input operates internally on the ignition impulses. Should the appliance start, the ignition impulses are run up by the boosting-time-ramp. Should the appliance stop, the ignition impulses are driven back by the flyback-time-ramp. By way of 2 jumpers on the board this function can be inverted. 100 6 6 115V 230V Control devices RG-1 165,- 155,- Control devices RG-2 265,- 260,- Control devices RG-3 505,- 490,- 6 13
Stand SF Bedplate with borescheme for für KWF 300/400/500 e D (mm) KWF300 260 KWF400 340 KWF500 460 480 495 655 580 780 705 830 950 1030 480 SF-A SF-B SF-C SF-D e Adjustable height min. max SF-A 495 655 SF-B 580 780 SF-C 705 950 SF-D 830 1030 Floorstand SF with threaded column and fourfold foot transport with lifting cart possible stand SF-A 805,- stand SF-B 830,- stand SF-C 860,- stand SF-D 915,- special color from 1 piece 140,- / Stk. pecial color from 5 piece 55,- / Stk. bedplate with borescheme for KWF300 140,- bedplate with borescheme for KWF400 220,- bedplate with borescheme for KWF500 300,- 14
D nak Sword feeder / feeder band sword feeder B A C A B C D 450 400 163 200-330 The sword feeder is appropriate for feeding parts carefully, e.g. Varnished screws. feeder band L L speed feeder bad FB 500 standard 4-36 m/min. feeder band FB 750 standard 4-36 m/min. feeder band FB 1000 standard 4-36 m/min. feeder band L= 500 400,- feeder band L= 500 600,- feeder band L= 500 800,- feeder band FB=40mm with control 1350,- feeder band FB=80mm with control 1450,- sword feeder on request 15
nak Control device for feeder band RFB1 Electronic control device for operating 24 V DC - motors. Electronic control device for infinitely variable regulation of 24 V DC - motors with permanent magnetic field. Compact housing, with integrated power transformer for generating the motor voltage. The devices make available over internally adjustable voltage limits Umin and Umax an adjustable voltage limit. The motor voltage can be adjusted on the potentiometer, that is built into the frontplate, from 0 to 100 percent. The hook-up of the device is realized by a fast-connected power cable, the hook-up of the motor is realized over a M12 socket. e RFB1 input voltage 110 / 230 V, +6%/-10%, 50/60 Hz output voltage 0...24 V output current 2:00 AM desired value target potentiometer environmental temp 0...45 C measurements (LxBxH) mm 205x93x162 protection IP 54 16 control device RFB1 390,-
Centrifuge Aussenring Drehscheibe Ø 400 315.5 442 24V 42W n=90 24V 42W n=90 The nak centrifuge is predestined for the feeding of small and micro parts; determined by the maximal air gap of 0,2 mm between turntable and outer ring. e measurements motor nominal voltage rated speed wattage rating rotational direction D H AH ZF 400 400 450 370 control device RG ZF 400 Permanenterregter DC-Motor 230 V 165 U/min. 90 W links /rechts 230 V For the control of centrifuge 2 RG ZF 400 are necessary. centrifuge ZF 400 8540,- control device RG ZF 400 405,- 17
Feeding station Bunker Fill level control Feeding rail with slideable cover Separator Jam control Linear feeder Substructure linear feeder Feeding bowl Helix feeder feeding station on request 18